Jianzhong Liu spends much of his time researching Chemical engineering, Coal, Mineralogy, Slurry and Waste management. His Chemical engineering research is multidisciplinary, incorporating perspectives in Moisture, Desorption and Specific surface area, Catalysis. His Coal research incorporates elements of Scientific method, Apparent viscosity and Volume.
His Mineralogy research incorporates themes from Fly ash, Scanning electron microscope, Thermal energy, Analytical chemistry and Particle size. His work carried out in the field of Slurry brings together such families of science as Wastewater, Rheology and Pulp and paper industry. His Waste management study combines topics from a wide range of disciplines, such as Hydrogen production, Fermentation, Sulfur dioxide and Anaerobic digestion.
Jianzhong Liu mainly investigates Chemical engineering, Combustion, Coal, Inorganic chemistry and Slurry. His Chemical engineering study combines topics in areas such as Carbon, Organic chemistry, Adsorption, Specific surface area and Mineralogy. The Combustion study combines topics in areas such as Ignition system, Thermal oxidation, Boron and Analytical chemistry.
His studies examine the connections between Coal and genetics, as well as such issues in Moisture, with regards to Particle size. His Inorganic chemistry research includes elements of Sulfur, Hydrogen production, Catalysis, Oxygen and Metal. His work in Slurry covers topics such as Pulp and paper industry which are related to areas like Sludge.
His primary scientific interests are in Chemical engineering, Combustion, Slurry, Ignition system and Coal. The study incorporates disciplines such as Redox and Adsorption in addition to Chemical engineering. His study in Combustion is interdisciplinary in nature, drawing from both Agglomerate, Aluminium, Boron and Analytical chemistry.
His Slurry research integrates issues from Wastewater, Waste management and Pulp and paper industry. His research in Ignition system focuses on subjects like Nanofluid, which are connected to Oleic acid, Heptane and Liquid fuel. His Coal study also includes fields such as
Jianzhong Liu mainly focuses on Chemical engineering, Coal, Coal water, Slurry and Wastewater. In the subject of general Chemical engineering, his work in Hydrothermal circulation is often linked to Dewatering, thereby combining diverse domains of study. His studies in Coal integrate themes in fields like Pyrolysis, Metal, Sodium lignosulfonate and Fully developed.
Coal water is a subfield of Waste management that Jianzhong Liu investigates. His research integrates issues of Carbon fixation and Chromatography in his study of Wastewater. Jianzhong Liu has included themes like Boron, Gravimetric analysis, Whiskers, Ignition system and Aluminium in his Scanning electron microscope study.
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Simultaneous removal of NOx, SO2 and Hg in nitrogen flow in a narrow reactor by ozone injection: Experimental results
Zhihua Wang;Junhu Zhou;Yanqun Zhu;Zhengcheng Wen.
Fuel Processing Technology (2007)
Sulfur removal at high température during coal combustion in furnaces: a review
Jun Cheng;Junhu Zhou;Jianzhong Liu;Zhijun Zhou.
Progress in Energy and Combustion Science (2003)
Effect of hydrothermal dewatering on the slurryability of brown coals
Yujie Yu;Jianzhong Liu;Ruikun Wang;JunHu Zhou.
Energy Conversion and Management (2012)
Production of hydrogen and methane from potatoes by two-phase anaerobic fermentation.
Binfei Xie;Jun Cheng;Junhu Zhou;Wenlu Song.
Bioresource Technology (2008)
Improvement of coal water slurry property through coal physicochemical modifications by microwave irradiation and thermal heat
Jun Cheng;Junhu Zhou;Yanchang Li;Jianzhong Liu.
Energy & Fuels (2008)
Pore structure and fractal analysis of Ximeng lignite under microwave irradiation
Jian-Zhong Liu;Jie-Feng Zhu;Jun Cheng;Jun-Hu Zhou.
The slurrying properties of slurry fuels made of petroleum coke and petrochemical sludge
Ruikun Wang;Jianzhong Liu;Fuyan Gao;Junhu Zhou.
Fuel Processing Technology (2012)
Effects of pore fractal structures of ultrafine coal water slurries on rheological behaviors and combustion dynamics
Jun Cheng;Junhu Zhou;Yanchang Li;Yanchang Li;Jianzhong Liu.
Experimental study of acoustic agglomeration of coal-fired fly ash particles at low frequencies
Jianzhong Liu;Guangxue Zhang;Junhu Zhou;Jie Wang.
Powder Technology (2009)
Physicochemical characterizations and desulfurization properties in coal combustion of three calcium and sodium industrial wastes
Jun Cheng;Junhu Zhou;Jianzhong Liu;Xinyu Cao.
Energy & Fuels (2009)
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